Product Details of 100-19-6. In 2019.0 ACS OMEGA published article about OXYGEN-REDUCTION; ELECTROCHEMICAL IMMUNOSENSOR; CATALYTIC-ACTIVITY; GREEN SYNTHESIS; NANOPARTICLES; SEGREGATION; ELECTROCATALYSTS; BIOSYNTHESIS; OXIDATION; KINETICS in [Liu, Miaomiao; Zhao, Shuangliang] East China Univ Sci & Technol, State Key Lab Chem Engn, Shanghai 200237, Peoples R China; East China Univ Sci & Technol, Sch Chem Engn, Shanghai 200237, Peoples R China in 2019.0, Cited 49.0. The Name is 1-(4-Nitrophenyl)ethanone. Through research, I have a further understanding and discovery of 100-19-6.
Bimetallic nanocatalysts, with efficient and controllable catalytic performance, have a promising application in chemical production. In this study, surface Pt-rich bimetallic AuPt nanoparticles with different Pt/Au ratios were prepared and tested in selective hydrogenation reactions of substituted nitroaromatics. Au nanoparticles were first prepared with n-butyllithium as a rapid reducer, which were further used as seeds in the slow growth process of Pt atoms. Because of the employed sequential reduction method and the following atom diffusion, surface Pt-rich bimetallic AuPt nanoparticles were obtained. Compared with the uniform AuPt alloy nanocatalysts synthesized by the co-reduction method with n-butyllithium as the reducer and monometallic Pt nanocatalysts, the obtained surface Pt-rich AuPt bimetallic nanocatalysts presented an enhanced catalytic selectivity or activity. The performance enhancement is assigned to the optimized Au/Pt interaction in the surface Pt-rich bimetallic nanostructures. This work demonstrates that the optimization of the stoichiometry and construction of bimetallic materials is a feasible method to synthesize controllable and efficient nanocatalysts.
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Reference:
Benzodioxan,
,1,4-Benzodioxane | C8H8O2 – PubChem